The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite
Magnesium-based composites have recently been studied as biodegradable materials for preparing orthopedic implants. In this article, the graphene oxide (GO) and GO-Cu nanosystem has been homogenously dispersed as a reinforcement in the matrix of Mg-Zn (MZ) alloy using the semi powder metallurgy (SPM...
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my.utm.1032722023-10-24T10:09:15Z http://eprints.utm.my/103272/ The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite Saberi, Abbas Bakhsheshi Rad, Hamid Reza Ismail, Ahmad Fauzi Sharif, Safian Razzaghi, Mahmood Ramakrishna, Seeram Berto, Filippo Q Science (General) TP Chemical technology Magnesium-based composites have recently been studied as biodegradable materials for preparing orthopedic implants. In this article, the graphene oxide (GO) and GO-Cu nanosystem has been homogenously dispersed as a reinforcement in the matrix of Mg-Zn (MZ) alloy using the semi powder metallurgy (SPM) method, and subsequently, the composite has been successfully manufactured using the spark plasma sintering (SPS) process. GO and GO-Cu reinforced composite displayed a higher compressive strength (~55%) than the unreinforced Mg-Zn sample. GO and GO-Cu dual nanofillers presented a synergistic effect on enhancing the effectiveness of load transfer and crack deflection in the Mg-based matrix. Besides, the GO-Cu dual nanofillers displayed a synergistic influence on antibacterial activity through combining the capturing influences of GO nanosheets with the killing influences of Cu. However, electrochemical and in-vitro immersion evaluation showed that Cu-GO reinforcement had a slightly negative effect on the corrosion behavior of the Mg-Zn sample, but the incorporation of GO enhanced corrosion resistance of the composite. Moreover, MZ/GO and MZ/GO-Cu nanocomposites showed acceptable cytotoxicity to MG-63 cells and revealed a high potential for use as an orthopedic implant material. Based on the research results, MZ/GO-Cu nanocomposite could be used in bone tissue engineering applications. MDPI 2022-02 Article PeerReviewed application/pdf en http://eprints.utm.my/103272/1/AhmadFauziIsmail2022_TheEffectofCo-EncapsulatedGOCuNanofillers.pdf Saberi, Abbas and Bakhsheshi Rad, Hamid Reza and Ismail, Ahmad Fauzi and Sharif, Safian and Razzaghi, Mahmood and Ramakrishna, Seeram and Berto, Filippo (2022) The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite. Metals, 12 (2). pp. 1-16. ISSN 2075-4701 http://dx.doi.org/10.3390/met12020207 DOI:10.3390/met12020207 |
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Q Science (General) TP Chemical technology Saberi, Abbas Bakhsheshi Rad, Hamid Reza Ismail, Ahmad Fauzi Sharif, Safian Razzaghi, Mahmood Ramakrishna, Seeram Berto, Filippo The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| description |
Magnesium-based composites have recently been studied as biodegradable materials for preparing orthopedic implants. In this article, the graphene oxide (GO) and GO-Cu nanosystem has been homogenously dispersed as a reinforcement in the matrix of Mg-Zn (MZ) alloy using the semi powder metallurgy (SPM) method, and subsequently, the composite has been successfully manufactured using the spark plasma sintering (SPS) process. GO and GO-Cu reinforced composite displayed a higher compressive strength (~55%) than the unreinforced Mg-Zn sample. GO and GO-Cu dual nanofillers presented a synergistic effect on enhancing the effectiveness of load transfer and crack deflection in the Mg-based matrix. Besides, the GO-Cu dual nanofillers displayed a synergistic influence on antibacterial activity through combining the capturing influences of GO nanosheets with the killing influences of Cu. However, electrochemical and in-vitro immersion evaluation showed that Cu-GO reinforcement had a slightly negative effect on the corrosion behavior of the Mg-Zn sample, but the incorporation of GO enhanced corrosion resistance of the composite. Moreover, MZ/GO and MZ/GO-Cu nanocomposites showed acceptable cytotoxicity to MG-63 cells and revealed a high potential for use as an orthopedic implant material. Based on the research results, MZ/GO-Cu nanocomposite could be used in bone tissue engineering applications. |
| format |
Article |
| author |
Saberi, Abbas Bakhsheshi Rad, Hamid Reza Ismail, Ahmad Fauzi Sharif, Safian Razzaghi, Mahmood Ramakrishna, Seeram Berto, Filippo |
| author_facet |
Saberi, Abbas Bakhsheshi Rad, Hamid Reza Ismail, Ahmad Fauzi Sharif, Safian Razzaghi, Mahmood Ramakrishna, Seeram Berto, Filippo |
| author_sort |
Saberi, Abbas |
| title |
The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| title_short |
The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| title_full |
The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| title_fullStr |
The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| title_full_unstemmed |
The effect of Co-Encapsulated GO-Cu nanofillers on mechanical properties, cell response, and antibacterial activities of Mg-Zn composite |
| title_sort |
effect of co-encapsulated go-cu nanofillers on mechanical properties, cell response, and antibacterial activities of mg-zn composite |
| publisher |
MDPI |
| publishDate |
2022 |
| url |
http://eprints.utm.my/103272/1/AhmadFauziIsmail2022_TheEffectofCo-EncapsulatedGOCuNanofillers.pdf http://eprints.utm.my/103272/ http://dx.doi.org/10.3390/met12020207 |
| _version_ |
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